Slamet Hariyadi

Bio: Slamet Hariyadi is an academic researcher from University of Jember. The author has contributed to research in topics: Mathematics education & Humanities. The author has an hindex of 6, co-authored 23 publications receiving 96 citations.

Contribution of Mind Mapping, Summarizing, and Questioning in the RQA Learning Model to Genetic Learning Outcomes

Abstract: | Full text: pdf (DOI: 10.12973/tused.10218a) Argumentation Based Inquiry Applications: Small Group Discussions of Students with Different Levels of Success Esra Kabataş Memiş, Ebru Ezberci Çevik Abstract | Full text: pdf (DOI: 10.12973/ tused.10219a)| Full text: pdf (DOI: 10.12973/ tused.10219a) Critical Inquiry Based Learning: A Model of Learning to Promote Critical Thinking Among Prospective Teachers of Physic Saiful PRAYOGI, Leny YUANITA WASIS Abstract | Full text: pdf (DOI: 10.12973/tused.10220a)| Full text: pdf (DOI: 10.12973/tused.10220a) Analysis of the forms of argumentation of teachers in training in the context of a socio-

Pengaruh model pembelajaran berbasis masalah (problem based learning) terhadap pemahaman konsep dan kemampuan berpikir kreatif siswa (siswa kelas viii semester gasal smpn 1 sumbermalang kabupaten situbondo tahun ajaran 2012/2013)

Abstract: Abstrak Model pembelajaran Berbasis Masalah (Problem Based Learning) merupakan kegiatan pembelajaran yang menuntut aktivitas mental siswa untuk memahami suatu konsep pembelajaran melalui situasi dan masalah yang disajikan pada awal pembelajaran dengan tujuan untuk melatih siswa menyelesaikan masalah dengan menggunakan pendekatan pemecahan masalah. Model pembelajaran ini dapat meningkatkan pemahaman konsep dan kemampuan berpikir kreatif siswa dalam mempelajari biologi, sehingga siswa dapat memperoleh manfaat yang maksimal baik dari proses maupun hasil belajarnya. Metode penelitian pada kelas kontrol menggunakan pembelajaran konvensional dan kelas eksperimen menggunakan model pembelajaran berbasis masalah (Problem Based Learning.). pemahaman konsep siswa dianalisis menggunakan ANAKOVA. Kemampuan berpikir kreatif dalam hal ini meliputi kefasihan, keluwesan, dan keaslian jawaban siswa dalam menjawab LKS. Perbedaan pemahaman konsep siswa dari hasil uji LSD menunjukkan beda rerata nilai kelas eksperimen terhadap kelas kontrol bernilai positif 15,997, dengan taraf signifikasi sebesar 0,000 (P = < 0,05). Hasil analisis kemampuan berpikir kreatif siswa menunjukkan bahwa pada kelas ekperimen tidak terdapat 0 (0%) siswa yang masuk dalam kriteria tidak kreatif (TK), sedangkan pada kelas kontrol terdapat 2 (5,4%) siswa. Pada kriteria kurang kreatif (KK) terdapat 7 (18%) siswa pada kelas ekperimen yang masuk didalamnya, sedangkan pada kelas kontrol terdapat 16 (43,2%) siswa. Pada kriteria berikutnya, yaitu kriteria cukup kreatif (CK) terdapat 20 (53,7%) siswa pada kelas eksperimen yang masuk didalamnya, sedangkan pada kelas kontrol 14 (37,8%) siswa. Pada kriteria Kreatif (K), terdapat 10 (27%) siswa pada kelas ekperimen yang masuk didalamnya, sedangkan pada kelas kontrol 5 (13,5,2%) siswa. Kriteria yang terakhir adalah kriteria sangat kreatif (SK), pada kriteria ini baik kelas ekperimen ataupun kelas kontrol tidak ada siswa yang masuk didalamnya. Kata Kunci : Pemahaman konsep siswa, Kemampun berpikir kreatif siswa, Model pembelajaran berbasis masalah.

The validity and effectivity of learning using STEAM module with biotechnology game

Abstract: Provision of teaching materials in term of module can be an alternative to meet the learning needs of science. The study aimed at describing science module constructed based on Science, Technology, Engineering, Art and Mathematics (STEAM) equipped with valid and effective biotechnology games for learning science in junior high school. This Research and Development (R&D) was developed using the 4D model (Thiagarajan). This research was conducted at MTsN (State of Islamic Secondary School) 2 Jember, involved 30 IX graders. The design used was one group pretest-posttest design as the test of effectiveness. This study used STEAM-based science module equipped with biotechnology games, test, and validation sheets as research instruments. The validation results by experts were converted into categories. The effectivity test data was analyzed using N-gain and paired samples t-test. The average of validation results of material, media, and users was 87.17 (very valid). The effectivity test results showed the increase of students’ cognitive learning outcome [N-gain value = 0.72 (high category), t(29) = 9.030, p < 0.05]. Therefore, the module developed is valid and effective in improving the learning of biotechnology science which means that the use of this module is recommended to be implemented in biotechnology learning process.

The Comparison of the Question Types in the RQA (Reading, Questioning, and Answering) Learning Model and Conventional Learning Model

Abstract: International Journal of Humanities Social Sciences and Education (IJHSSE), Volume 4, Issue 7, July 2017, PP 10-18

教学模式 = Models of Teaching

Abstract: Dedication Preface Foreword PART I: FRAME OF REFERENCE We begin with the idea of giving students the tools that increase their capacity for learning. The primary role of education is to increase student capacity for personal growth, social growth, and academic learning. Models of Teaching is an avenue to liberate student learning capacity and, by doing so, to help teachers take charge of their lives as teachers. CHAPTER 1: BEGINNING THE INQUIRY Creating Communities of Expert Learners On the whole, students are in schools and classes within those schools. Both need to be developed into learning communities and provided with the models of learning that enable them to become expert learners. We study how to build those learning communities. CHAPTER 2: WHERE MODELS OF TEACHING COME FROM Multiple Ways of Constructing Knowledge The history of teacher researchers comes to us in the form of models of teaching that enable us to construct vital environments for our students. Models have come from the ages and from teacher-researchers who have invented new ways of teaching. Some of these are submitted to research and development and how teachers can learn to use them. Those are the models that are included in this book. CHAPTER 3: STUDYING THE SLOWLY-GROWING KNOWLEDGE BASE IN EDUCATION A Basic Guide Through the Rhetorical Thickets We draw on descriptive studies, experimental studies, and experience to give us a fine beginning to what will eventually become a research-based profession. Here we examine what we have learned about how to design good instruction and effective curriculums. And, we learn how to avoid some destructive practices. CHAPTER 4: MODELS OF TEACHING AND TEACHING STYLES Three Sides of Teaching--Styles, Models, and Diversity We are people and our personalities greatly affect the environments that our students experience. And, as we use various models of teaching our selves -- our natural styles -- color how those models work in the thousands of classrooms in our society. Moreover, those models and our styles affect the achievement of the diverse students in our classes and schools. PART II: THE INFORMATION-PROCESSING FAMILYOF MODELS How can we and our students best acquire information, organize it, and explain it? For thousands of years philosophers, educators, psychologists, and artists have developed ways to gather and process information. Here are several live ones. CHAPTER 5: LEARNING TO THINK INDUCTIVELY Forming Concepts by Collecting and Organizing Information Human beings are born to build concepts. The vast intake of information is sifted and organized and the conceptual structures that guide our lives are developed. The inductive model builds on and enhances the inborn capacity of our students. CHAPTER 6: ATTAINING CONCEPTS Sharpening Basic Thinking Skills Students can develop concepts. They also can learn concepts developed by others. Concept attainment teaches students how to learn and use concepts and develop and test hypotheses. CHAPTER 7: THE PICTURE-WORD INDUCTIVE MODEL Developing Literacy across the Curriculum Built on the language experience approach, the picture-word inductive model enables beginning readers to develop sight vocabularies, learn to inquire into the structure of words and sentences, write sentences and paragraphs, and, thus, to be powerful language learners. In Chapter 19 the outstanding results from primary curriculums and curriculums for older struggling readers are displayed. CHAPTER 8: SCIENTIFIC INQUIRY AND INQUIRY TRAINING The Art of Making Inferences From the time of Aristotle, we have had educators who taught science-in-the-making rather than teaching a few facts and hoping for the best. We introduce you to a model of teaching that is science on the hoof, so to speak. This model has had effects, among other things, on improving the capacity of students to learn. We concentrate on the Biological Sciences Study Group, where for 40 years science teachers have shared information and generated new ideas. And, Inquiry training is a "best yet" model for teaching basic inquiry skills. CHAPTER 9: MEMORIZATION Getting the Facts Straight Memorization has had something of a bad name, mostly because of deadly drills. Contemporary research and innovative teachers have created methods that not only improve our efficiency in memorization, but also make the process delightful. CHAPTER 10: SYNECTICS The Arts of Enhancing Creative Thought Creative thought has often been thought of as the province of a special few, and something that the rest of us cannot aspire to. Not so. Synectics brings to all students the development of metaphoric thinking -- the foundation of creative thought. The model continues to improve. CHAPTER 11: LEARNING FROM PRESENTATIONS Advance Organizers Learning from presentations has almost as bad a name as learning by memorization. Ausubel developed a system for creating lectures and other presentations that will increase learner activity and, subsequently, learning. PART III: THE SOCIAL FAMILY OF MODELS Working together might just enhance all of us. The social family expands what we can do together and generates the creation of democracy in our society in venues large and small. In addition, the creation of learning communities can enhance the learning of all students dramatically. CHAPTER 12: PARTNERS IN LEARNING From Dyads to Group Investigation Can two students who are paired in learning increase their learning? Can students organized into a democratic learning community apply scientific methods to their learning? You bet they can. Group Investigation can be used to redesign schools, increase personal, social, and academic learning among all students, and -- is very satisfying to teach. CHAPTER 13: THE STUDY OF VALUES Role Playing and Public Policy Education Values provide the center of our behavior, helping us get direction and understand other directions. Policy issues involve the understanding of values and the costs and benefits of selecting some solutions rather than others. In these models, values are central. Think for a moment about the issues that face our society right now -- research on cells, international peace, including our roles in Iraq and the rest of the Middle East, the battle against AIDS, poverty, and who controls the decisions about pregnancy and abortion. Not to mention just getting along together. PART IV: THE PERSONAL FAMILY OF MODELS The learner always does the learning. His or her personality is what interacts with the learning environment. How do we give the learner centrality when we are trying to get that same person to grow and respond to tasks we believe will enhance growth? CHAPTER 14: NONDIRECTIVE TEACHING The Learner at the Center How do we think about ourselves as learners? As people? How can we organize schooling so that the personalities and emotions of students are taken into account? Let us inquire into the person who is the center of the education process. CHAPTER 15: DEVELOPING POSITIVE SELF-CONCEPTS The Inner Person of Boys and Girls, Men and Women If you feel great about yourself, you are likely to become a better learner. But you begin where you are. Enhancing self concept is a likely avenue. The wonderful work by the SIMs group in Kansas (see Chapter 3) has demonstrated how much can be accomplished. PART V: THE BEHAVIORAL SYSTEMS FAMILY OF MODELS We are what we do. So how do we learn to practice more productive behaviors? Let's explore some of the possibilities. CHAPTER 16: LEARNING TO LEARN FROM MASTERY LEARNING Bit by bit, block by block, we climb our way up a ladder to mastery. CHAPTER 17: DIRECT INSTRUCTION Why beat around the bush when you can just deal with things directly? Let's go for it! However, finesse is required, and that is what this chapter is all about. CHAPTER 18: LEARNING FROM SIMULATIONS Training and Self-Training How much can we learn from quasi-realities? The answer is, a good deal. Simulations enable us to learn from virtual realities where we can experience environments and problems beyond our present environment. Presently, they range all the way to space travel, thanks to NASA and affiliated developers. PART VI: INDIVIDUAL DIFFERENCES, DIVERSITY, AND CURRICULUM The rich countryside of humanity makes up the population of our schools. The evidence suggests that diversity enhances the energy of schools and classrooms. However, some forms of teaching make it difficult for individual differences to flourish. We emphasize the curriculums and models of teaching that enable individual differences to thrive. CHAPTER 19: LEARNING STYLES AND MODELS OF TEACHING Making Discomfort Productive By definition, learning requires knowing, thinking, or doing things we couldn't do before the learning took place. Curriculums and teaching need to be shaped to take us where we haven't been. The trick is to develop an optimal mismatch in which we are pushed but the distance is manageable. CHAPTER 20: EQUITY Gender, Ethnicity, and Socioeconomic Background The task here is to enable differences to become an advantage. The best curriculums and models of teaching do just that. In other words, if differences are disadvantages, it is because of how we teach. CHAPTER 21: CREATING AND TESTING CURRICULUMS The Conditions of Learning Robert Gagne's framework for building curriculums is discussed and illustrated. This content is not simple, but it is powerful. CHAPTER 22: TWO WORDS ON THE FUTURE The Promise of Distance Learning and Using Models of Teaching to Ensure that No Child is Left Behind. Afterword APPENDIX PEER COACHING GUIDES Related Literature and References Index

OBAT-OBAT PENTING : Khasiat, penggunaan, dan Efek-efek sampingnya (EDISI 5)

Abstract: daftar isi : 1. farmakologi umum 2. kemoteraprutika 3. obat-obat gangguan saluran cerna 4. obat susunan saraf pusat 5. obat susunan saraf otonom 6. jantung, pembuluh, dan darah 7. saluran pernapasan 8. hormon-hormon 9. dasar-dasar imunologi, sera dan vaksin, antihistaminika, obat migrain, vitamin dan mineral, dan dasar-dasar diet sehat 10. skema dosis bagi anak-anak, daftar obat selama kehamilan, dan daftar dosis lazim obat-obat penting.

Contribution of Mind Mapping, Summarizing, and Questioning in the RQA Learning Model to Genetic Learning Outcomes

Abstract: | Full text: pdf (DOI: 10.12973/tused.10218a) Argumentation Based Inquiry Applications: Small Group Discussions of Students with Different Levels of Success Esra Kabataş Memiş, Ebru Ezberci Çevik Abstract | Full text: pdf (DOI: 10.12973/ tused.10219a)| Full text: pdf (DOI: 10.12973/ tused.10219a) Critical Inquiry Based Learning: A Model of Learning to Promote Critical Thinking Among Prospective Teachers of Physic Saiful PRAYOGI, Leny YUANITA WASIS Abstract | Full text: pdf (DOI: 10.12973/tused.10220a)| Full text: pdf (DOI: 10.12973/tused.10220a) Analysis of the forms of argumentation of teachers in training in the context of a socio-

Mind Mapping in Learning Models: A Tool to Improve Student Metacognitive Skills

Abstract: This study aimed to measure the role of mind mapping in learning models to improve students' metacognitive skills. The study used a pre-experimental one group pre-test post-test design, involving 33 students of science teacher candidates, Science Education Study Program, Universitas Negeri Malang, Malang, Indonesia, for three meetings. The instruments used were a mind map assessment rubric and a metacognitive skills essay questions as many as 15 questions alongside with its assessment rubric. Students were given a pre-test before learning activities and the same post-test consists of essays related to metacognitive skills. Research data were analyzed descriptively and quantitatively using a t-test and correlation analysis. The results showed: (1) there was increasing scores over mind mapping skills in the average by each meeting, namely score of 13.91 (Enough), 15.39 (Enough), and 18.18 (Good); (2) the paired t-test results showed the value of t = 9.196, with a significance of 0.000 <0.05; and (3) the results of the influence analysis of 0.552 showed that mind mapping with metacognitive skills was correlated by moderate criteria. To conclude, the mind mapping applied in the syntax of learning models can improve the metacognitive skills of students as science teacher candidates